- Maity, Niladri;
- Barman, Samir;
- Callens, Emmanuel;
- Samantaray, Manoja K;
- Abou-Hamad, Edy;
- Minenkov, Yury;
- D'Elia, Valerio;
- Hoffman, Adam S;
- Widdifield, Cory M;
- Cavallo, Luigi;
- Gates, Bruce C;
- Basset, Jean-Marie
The well-defined single-site silica-supported tungsten complex [([triple bond, length as m-dash]Si-O-)W(Me)5], 1, is an excellent precatalyst for alkane metathesis. The unique structure of 1 allows the synthesis of unprecedented tungsten hydrido methyl surface complexes via a controlled hydrogenolysis. Specifically, in the presence of molecular hydrogen, 1 is quickly transformed at -78 °C into a partially alkylated tungsten hydride, 4, as characterized by 1H solid-state NMR and IR spectroscopies. Species 4, upon warming to 150 °C, displays the highest catalytic activity for propane metathesis yet reported. DFT calculations using model systems support the formation of [([triple bond, length as m-dash]Si-O-)WH3(Me)2], as the predominant species at -78 °C following several elementary steps of hydrogen addition (by σ-bond metathesis or α-hydrogen transfer). Rearrangement of 4 occuring between -78 °C and room temperature leads to the formation of an unique methylidene tungsten hydride [([triple bond, length as m-dash]Si-O-)WH3([double bond, length as m-dash]CH2)], as determined by solid-state 1H and 13C NMR spectroscopies and supported by DFT. Thus for the first time, a coordination sphere that incorporates both carbene and hydride functionalities has been observed.